DE2154545A1 - DEVICE FOR ASSEMBLING ROLLER BEARINGS - Google Patents

Description

Device for assembling roller bearings The invention relates to a device for assembling roller bearings, in particular radial deep groove ball bearings, with a feed element for filling in rolling elements between two eccentrically one inside the other arranged bearing rings, with in the half-shaped space between the two bearing rings a crescent-shaped roller support protrudes.

Such a device is covered by Swiss patent 392 167 became known. However, this device has several disadvantages. So is the performance of the known device is limited by the fact that it is used as a supply element only one channel for the rolling elements, which is connected to a reservoir for the rolling elements is available. This has the further disadvantage that the height of fall the rolling elements to be filled is relatively large, so that they are used in the Einftilivorgang can be damaged. The risk of damage to the rolling elements is increased further enlarged by the fact that the in the halon-shaped space between the two eccentrically shifted bearing rings with protruding rolling element support rigid is stored and does not give in on impact of the rolling elements. In addition, the Rolling bodies only thereby in the crescent-shaped space between the two bearing rings distributed so that these displace each other so that they are under unfavorable Circumstances can jam.

The invention is based on the object of a device for filling of rolling elements between two eccentrically arranged bearing rings for To create radial rolling bearings that ensure gentle treatment of the rolling elements and with which a high performance can be achieved at the same time, so that a faster and smooth filling process can be achieved.

In the case of a device, this object is described at the outset Type solved in that the feed member consists of at least two parallel channels, which are eccentrically shifted to each other over the crescent-shaped space between the two End bearing rings.

With the device according to the invention compared to the known the cycle time for the filling process can be significantly reduced. Besides, the Risk of damage to the rolling elements to be filled is reduced because each channel only half as many balls are fed, so that the height of fall of the rolling elements is lower is.

According to a further feature of the invention, the channels in their The course shows bumps that delay the falling speed of the rolling elements is, so that these are additionally spared. Another protection of the rolling elements is ensured according to another feature of the invention that the sickle-shaped Rolling element support is resiliently supported so that the rolling elements caused by the falling shocks caused are dampened.

In a further embodiment of the invention, the two bearing rings rotate, the Wäizkörperauflage and the feed member during the filling process, wherein the The axis of rotation is offset to the axis of the outer ring. This measure will the gentle distribution of the rolling elements is further promoted. The rolling elements are due to the rotation during the filling process without external forces against the raceway of the Outer ring pressed and automatically on both sides by a tangential component eccentrically shifted to each other in the crescent-shaped space between the two Bearing rings carried in. To further improve the rolling element distribution can the axis of rotation perform a non-uniform rotational movement; by doing it Accelerations and decelerations that occur make the rolling elements even better distributed on both sides.

The filler neck of the feed member can have another feature the winding align with the axis of rotation. That way the opening remains of the filler neck always in the same place, so that even during the rotary movement of the device rolling elements are fed from a storage container to the filler neck can.

So that the rolling elements are better distributed during filling and become line up in the largest possible space against the raceway of the outer ring, is according to Another feature of the invention is the end face of the sickle-shaped rolling element support inclined to the normal of the roller bearing axis.

Further advantages of the invention emerge from the following Description of exemplary embodiments which are shown in the drawings.

These show in: FIG. 1 a longitudinal section through an embodiment of the invention, FIG. 2 shows a section through the supply element according to the invention, FIG 3 shows a longitudinal section through a further embodiment of the invention, FIG 4 shows a schematic cross section through the two eccentrically arranged one inside the other Bearing rings with the rolling elements to be distributed to explain the balance of forces, FIG. 5 shows a longitudinal section through an advantageous embodiment of the roller support and FIG. 6 is a plan view of the rolling element support shown in FIG.

The device shown in Figure 1 is used for filling balls 1 in the half-moon shaped space 2 between an inner ring 3 and an outer ring 4, which are shifted eccentrically to one another during the filling process. Of the Inner ring 3 and outer ring 4 rest on a flat plate 5; through a drilling 6 in the plate 5 protrudes a centering pin 7 into the bore of the inner ring 3, the has been brought into a position eccentric to the outer ring 4 by the centering bolt 7 is. In this way is between the outer ring 4 and the Inner ring 3 the crescent-shaped space 2 mentioned has been produced. With a corresponding A crescent-shaped recess in the plate 5 protrudes into this crescent-shaped space 2 Rolling element support 8, which is formed into a ring 9 below the plate 5. The rolling element support 8 is at several circumferential points of this ring 9 through Springs lo supported supports 11 resiliently supported.

When filling the balls 1 from a storage container, not shown These balls 1 fall through a feed element 12 into the crescent-shaped space 2 the rolling element support 8, the shock being caused by the resilient support of the rolling element support 8 is attenuated. In this way, the balls 1 are very gentle during the filling process treated. To fill as many balls 1 as possible between the two bearing rings to be able to, the outer ring 4 can additionally by radial forces not shown be deformed.

In Figure 2 is an embodiment of the feed member according to the invention 12 th illustrated. This feed element 12 consists of two arranged parallel to one another Channels 13 through which the balls 1 fall onto the rolling element support 8.

The rolling element support 8 protrudes, as shown in Figure 1, in the crescent-shaped Space 2 between the two bearing rings. The fact that the feed member 12 consists of two Channels 13 consists, so through each channel 13 only half of the balls per bearing must be supplied, the height of fall of the balls 1 is significant compared to only one channel reduced, so that a further protection of the balls 1 guaranteed during the filling process is. The inventive design of the feed member 12 also has the advantage that by the simultaneous filling of the balls 1 through two channels 13 the cycle time is noticeably shortened when filling.

Another variant of the device is shown in FIG. One Shaft 14, which is mounted in roller bearings 15 in a housing 16, offsets the centering bolt 7 with the two bearing rings 3 and 4, the rolling element support 8 and the clock element 12 in rotation. The axis of rotation 17 of the shaft 14 is by the amount x to Axis 18 of the outer ring 4 offset (Figure 4). With this arrangement, the Balls 1 during the filling process by the radial component R of the centrifugal force Z pressed against the raceway of the outer ring 4 and by the tangential component T carried into the crescent-shaped room 2 on both sides. The size of the tangential component T grows with the distance x as well as with the speed of rotation of the shaft 14. With this embodiment of the inventive outdoor device for assembling Rolling bearings enable efficient and gentle distribution of the balls 1, because no external mechanical forces act on the balls 1.

As is further shown in Figure 3, the Zuftihrorgan 12 in its course kinks so that the balls 1 braked when falling and thus be spared. Appropriately, as can be seen from Figure 3, the Einfililstutzen 19 is arranged in such a way that its axis is aligned with the axis of rotation 17. With this construction, the balls 1 can also with rotation of the shaft 14 in the EinfUllstutzen 19 are filled because this is its position during the rotation not changed. In Figure 3, the rolling element support 8 is rigidly mounted; it goes without saying possible to also support these resiliently, as has already been sketched in FIG.

The construction described can be further modified as a result be that the shaft 14 axis by an inclined to the axis of rotation 17 drive 20, which is connected to this by a universal joint 21, a non-uniform Rotary movement is imposed. This uneven rotational movement will be the balls 1 during both accelerations and decelerations of the system distributed on both sides.

As is sketched in FIGS. 5 and 6, the end face 22 the sickle-shaped rolling element support 8 inclined to the axis normal by an angle oc be.

By this measure, the balls 1 are better distributed during filling, that is, lined up against the raceway of the outer ring 4 in the largest possible space.

With the invention, a mounting device for rolling bearings is created has been, which is very efficient compared to known devices and an extremely Gentle treatment of the rolling elements when filling between the two bearing rings enables.

Claims (7)

Claims Device for assembling roller bearings, especially Radinl deep groove ball bearings, with a feed member for filling in rolling elements between two eccentrically one inside the other arranged bearing rings, being in the crescent-shaped space between the two bearing rings a sickle-shaped roller support protrudes, characterized in that the feed member (12) consists of at least two parallel channels (13), which over the crescent-shaped Space (2) ends. 2. Apparatus according to claim 1, characterized in that the channels (13) show kinks in their course. 3. Apparatus according to claim 1 or 2, characterized in that the two bearing rings (3, 4), the rolling element support (8) and the feed element (12) rotate during the filling process, the axis of rotation (17) to the axis (18) of the outer ring (4) is offset. 4. Apparatus according to claim 9, characterized in that the axis of rotation (17) performs a non-uniform rotary movement. 5. Apparatus according to claim 3 or 4, characterized in that the axis of the filler neck (19) of the feed organ (12) with the axis of rotation (17) aligns. 6. Device according to one of the preceding claims, characterized in that that the sickle-shaped rolling element support (8) is resiliently supported. 7. Device according to one of the preceding claims, characterized in that that the end face (22) of the sickle-shaped roller support (8) to the normal of the Wålzlagerachse is inclined.